Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P41181 (collecting duct)
 5,183 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Renal tubular and glomerular function following ovine fetal urinary tract obstruction has been studied predominantly in anesthetized, exteriorized fetuses immediately after relief of obstruction. Since surgery and anesthesia may alter fetal cardiovascular and renal physiology, we developed a chronically catheterized, ovine model of unilateral fetal urinary tract obstruction to compare function of the unobstructed and obstructed kidneys repeatedly after relief of obstruction. Split renal function of the previously obstructed kidneys and unobstructed kidneys was measured serially in 7 fetal sheep after obstruction at 55 to 85 days per 147 days of gestation for 30 to 49 days. Seventy-five split clearances were determined on days 1, 2, 3 to 4 and 5 to 6 postoperatively. Not every fetus was studied each day. By 2-way ANOVA, renal function was stable on day 1 after surgery and did not change with time. Previously obstructed kidneys had lower creatinine clearance (0.16 versus 0.71 ml. per minute, p equals 0.0001), higher fractional sodium excretion (33.04 versus 6.02 per cent, p equals 0.0001) and higher urine sodium/creatinine ratio (4.80 versus 0.90 mEq. per mg., p equals 0.0001). Urine flow in the unobstructed kidneys did not differ significantly from that of the obstructed kidneys (0.122 versus 0.083 ml. per minute, p equals 0.35). Obstruction reduced kidney weight (4.7 versus 9.7 gm., p equals 0.0006), cortical thickness (-39 per cent) and nephrogenic zone (-59 per cent), and it increased collecting duct dilatation and medullary fibrosis. No cysts or dysplasia was noted. Fetal urinary tract obstruction for 39.7 days alters renal histology, glomerular function and tubular function. Renal function is stable by 1 day after catheterization and does not change from days 1 to 6 following relief of obstruction.
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PMID:Serial renal function in an ovine model of unilateral fetal urinary tract obstruction. 274 94

Renal facilitative urea transporters play a vital role in the urinary concentrating mechanism. UT-A3 is a phloretin-sensitive urea transporter that in the mouse is expressed on the basolateral membrane of renal inner medullary collecting duct (IMCD) cells. In this study, we engineered a Madin-Darby canine kidney (MDCK) I cell line that stably expresses mouse UT-A3 (MDCK-mUT-A3). Immunoblotting using the UT-A-targeted antibody ML446 detected a approximately 40-kDa signal in MDCK-mUT-A3 protein that corresponds to mUT-A3. Using cultured epithelial monolayers, radioactive (14)C-urea flux experiments determined that basolateral urea transport was no different between MDCK-mUT-A3 and control MDCK-FLZ cells under basal conditions [not significant (NS), ANOVA]. However, exposure to arginine vasopressin (AVP) significantly stimulated basolateral urea flux in MDCK-mUT-A3 monolayers (P < 0.05, ANOVA), while it had no effect in control MDCK-FLZ monolayers (NS, ANOVA). The AVP-stimulated basolateral urea transport in MDCK-mUT-A3 was inhibited by 1,3 dimethyl urea (P < 0.05, ANOVA) or phloretin (P < 0.05, ANOVA), both known inhibitors of facilitative urea transporters. MDCK-mUT-A3 basolateral urea flux was also stimulated by increasing intracellular levels of cAMP, via forskolin (P < 0.05, ANOVA), or intracellular calcium, via ATP (P < 0.05, ANOVA). Finally, 1-h preincubation with a specific PKA inhibitor, H89, significantly inhibited the increase in urea transport produced by AVP (P < 0.05, ANOVA). In conclusion, we have produced the first renal cell line to stably express the mUT-A3 urea transporter. Our results indicate that mUT-A3 is acutely regulated by AVP, via a PKA-dependent pathway. These findings have important implications for the regulation of urea transport in the renal IMCD and the urinary concentrating mechanism.
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PMID:Acute regulation of mUT-A3 urea transporter expressed in a MDCK cell line. 1714 84